Explicit support and gauge functions characterize the correlation sets in the (2,m,2) Bell scenario for three state spaces, yielding optimal witnesses for entanglement and beyond-quantum correlations with noise robustness thresholds.
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UNVERDICTED 2representative citing papers
QRQT protects quantum teleportation's classical channel with PQC, showing quantum memory coherence as the central bottleneck that caps secure distance at 191-199 km and produces a non-monotonic joint attack probability.
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Dualistic operational characterization of device-dependent correlation sets via convex analysis in the $(2,m,2)$ Bell scenario
Explicit support and gauge functions characterize the correlation sets in the (2,m,2) Bell scenario for three state spaces, yielding optimal witnesses for entanglement and beyond-quantum correlations with noise robustness thresholds.
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Quantum-Resistant Quantum Teleportation
QRQT protects quantum teleportation's classical channel with PQC, showing quantum memory coherence as the central bottleneck that caps secure distance at 191-199 km and produces a non-monotonic joint attack probability.